Cowden disease (CD) is an autosomal dominant cancer predisposition syndrome associated with an elevated risk for tumours of the breast, thyroid and skin. Lhermitte-Duclos disease (LDD) cosegregates with a subset of CD families and is associated with macrocephaly, ataxia and dysplastic cerebellar gangliocytomatosis. The common feature of these diseases is a predisposition to hamartomas, benign tumours containing differentiated but disorganized cells indigenous to the tissue of origin. Linkage analysis has determined that a single locus within chromosome 10q23 is likely to be responsible for both of these diseases. A candidate tumour suppressor gene (PTEN) within this region is mutated in sporadic brain, breast and prostate cancer. Another group has independently isolated the same gene, termed MMAC1, and also found somatic mutations throughout the gene in advanced sporadic cancers. Mutational analysis of PTEN in CD kindreds has identified germline mutations in four of five families. We found nonsense and missense mutations that are predicted to disrupt the protein tyrosine/dual-specificity phosphatase domain of this gene. Thus, PTEN appears to behave as a tumour suppressor gene in the germline. Our data also imply that PTEN may play a role in organizing the relationship of different cell types within an organ during development.
Almost one fourth of patients with apparently sporadic pheochromocytoma may be carriers of mutations; routine analysis for mutations of RET, VHL, SDHD, and SDHB is indicated to identify pheochromocytoma-associated syndromes that would otherwise be missed.
How do distinct protein-tyrosine kinases activate specific down-stream events? Src-homology-2 (SH2) domains on tyrosine kinases or targets of tyrosine kinases recognize phosphotyrosine in a specific sequence context and thereby provide some specificity. The role of the catalytic site of tyrosine kinases in determining target specificity has not been fully investigated. Here we use a degenerate peptide library to show that each of nine tyrosine kinases investigated has a unique optimal peptide substrate. We find that the cytosolic tyrosine kinases preferentially phosphorylate peptides recognized by their own SH2 domains or closely related SH2 domains (group I; ref. 3), whereas receptor tyrosine kinases preferentially phosphorylate peptides recognized by subsets of group III SH2 domains. The importance of these findings for human disease is underscored by our observation that a point mutation in the RET receptor-type tyrosine kinase, which causes multiple endocrine neoplasia type 2B, results in a shift in peptide substrate specificity.
Summary
We report a comprehensive molecular characterization of pheochromocytomas
and paragangliomas (PCC/PGLs), a rare tumor type. Multi-platform integration
revealed that PCC/PGLs are driven by diverse alterations affecting multiple
genes and pathways. Pathogenic germline mutations occurred in eight PCC/PGL
susceptibility genes. We identified CSDE1 as a
somatically-mutated driver gene, complementing four known drivers
(HRAS, RET, EPAS1,
NF1). We also discovered fusion genes in PCC/PGL, involving
MAML3, BRAF, NGFR and
NF1. Integrated analysis classified PCC/PGLs into four
molecularly-defined groups: a kinase signaling subtype, a pseudohypoxia subtype,
a Wnt-altered subtype, driven by MAML3 and
CSDE1, and a cortical admixture subtype. Correlates of
metastatic PCC/PGL included the MAML3 fusion gene. This
integrated molecular characterization provides a comprehensive foundation for
developing PCC/PGL precision medicine.
Purpose
Age-adjusted cancer incidence and age-related penetrance studies have helped guide cancer risk assessment and management. PTEN Hamartoma-Tumor Syndrome (PHTS) is a term encompassing subsets of several clinical syndromes with germline mutations in the PTEN tumor suppressor gene. We conducted the first prospective study to clarify corresponding cancer risks to shed biological insights on human germline PTEN mutations, and to better inform current surveillance recommendations based on expert opinion.
Methods
A series of 3,399 individuals meeting relaxed International Cowden Consortium PHTS criteria were prospectively recruited; 368 individuals were found to have deleterious germline PTEN mutations. Age-adjusted standardized incidence ratio (SIR) calculations and genotype-phenotype analyses were performed.
Results
Elevated SIRs were found for carcinomas of the breast (25.4, 95%C.I. 19.8-32.0), thyroid (51.1, 38.1-67.1), endometrium (42.9, 28.1-62.8), colorectum (10.3, 5.6-17.4), and kidney (30.6, 17.8-49.4), and melanoma (8.5, 4.1–15.6). Estimated lifetime risks were, respectively, 85.2% (95%C.I. 71.4%-99.1%), 35.2% (19.7%-50.7%), 28.2% (17.1%-39.3%), 9.0% (3.8-%14.1%), 33.6% (10.4%–56.9%) and 6% (1.6%-9.4%). Promoter mutations were associated with breast cancer, while colorectal cancer was associated with nonsense mutations.
Conclusion
Lifetime risks for a variety of cancers, now extending to colorectal cancer, kidney cancer and melanoma, are increased in patients with PTEN mutations. The genotype-phenotype associations here may provide new insights on PTEN structure and function. We propose a comprehensive approach to surveillance of patients with PTEN mutations.
Loss of PTEN function by mutational or other mechanisms is an early event in endometrial tumorigenesis that may occur in response to known endocrine risk factors and offers an informative immunohistochemical biomarker for premalignant disease. Individual PTEN-negative glands in estrogen-exposed endometria are the earliest recognizable stage of endometrial carcinogenesis. Proliferation into dense clusters that form discrete premalignant lesions follows.
One hundred twenty-two evidence-based recommendations were created to assist in the clinical care of MTC patients and to share what we believe is current, rational, and optimal medical practice.
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